View clinical trials related to Sleep Apnea.
Filter by:In this study the feasibility of detecting sleep apnoeas with unobtrusive wearable sensors and sounds recorded with a smartphone is studied by making an overnight recording to patients with high probability of sleep apnoeas. The data acquired with the aforementioned devices is: ECG, acceleration, bioimpedance of thorax and processed and raw audio. In data analysis phase it will be studied which combinations of these signals would enable detecting sleep apnoeas with high enough sensitivity and specificity when compared to a night polygraphy reference (Nox T3 device using airflow, breathing movements, audio, position, movement, oxygen saturation, pulse and leg EMG).
This randomized controlled study will directly evaluate whether unattended polysomnography (level 2 sleep study) in individuals referred for sleep apnea or hypersomnia, including those with comorbidities of insomnia and sleep-related movement disorders, provides similar patient outcomes when compared to level 1 sleep studies.
Continuous positive airway pressure (CPAP) has a caricatural effect in reducing nocturnal respiratory abnormalities and improving the micro-and macrostructure of sleep. Studies characterizing the improvement of acute sleep parameters after the initiation of CPAP are limited to one or two nights of polysomnographic recording. This is related to the cost of performing these studies with repeated recordings in the laboratory and to the acceptability by patients to perform multiple nights of recordings. Investigators currently have powerful and reliable methods allowing us to carry out nights at home in the patient's ecosystem, in real-life conditions. The characterization of sleep parameters by these methods is equivalent to a polysomnographic recording. These technological innovations will allow us to characterize sleep before the initiation of CPAP treatment during several nights performed at home. Investigators will then be able to characterize the kinetics and stability of the improvement of sleep parameters in patients with obstructive sleep apnea syndrome in whom continuous positive airway pressure is initiated. These data will be original and will serve as exploratory data to judge whether the objective improvement of sleep parameters in the first weeks of treatment is associated with improvement in sleepiness, quality of life, and compliance with treatment.
This is a digital health study in which participants are recruited to collect sleep and activity data from digital activity trackers. We are also collecting survey/questionnaire data on baseline health and sleep characteristics as well as bi-weekly assessments of sleep quality and mood. Overall, we aim to examine how sleep relates to physical and mental health in a large population of activity tracker users.
The main aim of the study is to check the side effects from overnight treatment with danavorexton and assess the tolerability of varying doses of danavorexton administered intravenously. Before starting treatment with danavorexton, participants will keep a sleep diary and use an under-mattress sensor for at least 7 nights to check regular sleep habits. There will be 3 Treatment Period up to 14 days apart. In each Treatment Period, participants will receive an intravenous (through the vein) infusion of either danavorexton or a placebo starting in the evening and continuing over a 10-hour period. A placebo looks exactly like danavorexton but does not have any medicine in it. Participants will take part in a follow-up phone appointment about a week after the last Treatment Period.
The investigators will screen consecutive patients presenting to the atrial fibrillation clinic for sleep apnea using a FDA-approved home sleep testing device, WatchPAT to determine prevalence of sleep apnea in a clinic-based sample.
The overall goal of this project is to better understand the effect of intermittent hypoxia (IH) on sympathetic neuronal discharge patterns in humans, as well as mechanisms that mediate persistent sympathoexcitation with IH.
In the treatment of obstructive sleep apnea, by using sequential 4-channel electrical stimulation treatment, unlike conventional positive pressure devices, it can be done more effectively by improving the strength of the biceps and soft palate, which are the causes of sleep apnea. thought.
The need for multiple night testing is well recognized in sleep medicine because of a considerable and relevant night-to-night variability. In a study with multiple recordings using WatchPAT®, the OSA severity of 24% of patients was misclassified when using one night compared to the average of three nights. On average, pAHI varied by 57% from night-to-night. The variability of pAHI could partially be explained by the variability of time spent in the supine position with more time supine leading to a higher pAHI (Tschopp et al 2021). Smith (2007) suggested that the AHI should be indicated with a confidence interval to indicate the uncertainty regarding its true value. The Minimal Detectable Difference (MDD) is of special interest in sleep medicine, especially when assessing treatment effects. MDD was found to be 12.8/h and the standard error of measurement was 4.6/h for 4 nights of polysomnography (Aarab et al. 2008). For WatchPAT®, measuring two and three nights showed a small reduction in MDD from 19.1/h to 18.0/h (Tschopp et al. 2021, in press). Only one study using pulse oximetry assessed the night-to-night variability over 14 days (Stöberl A. et al 2017). The study confirmed the enormous variability and focused mainly on its impact on OSA severity. While the night-to-night variability has been extensively studied for polysomnography, respiratory polygraphy, and WatchPAT®, little is known about the optimal number of nights to be recorded. There is convincing evidence from the literature, that the recording of multiple nights is the only way to assess the severity of the patient's disease with clinically reasonable accuracy. Moreover, the MDD with only one night's recording is astonishingly high. The question is how many nights should be recorded to achieve acceptable diagnostic accuracy. The precision of the OSA measurement depends on the clinical situation. For example, to diagnose severe OSA, a higher variability might be acceptable without influencing the treatment decision. However, when comparing treatment effects, the MDD should be as small as possible. The recording of multiple nights might be cumbersome for patients (e.g. with polysomnography or respiratory polygraphy) as well as costly. These factors have to be taken into consideration for the clinically feasible number of recordings. Sleepiz One Connect offers the unique opportunity for a contactless recording of breathing combined with conventional pulse oximetry and is a minimally invasive diagnostic tool that allows measurements over several nights. Studies with multiple night recordings will offer a basis for diagnostic recommendations in future guidelines. The study aims to investigate the variability of obstructive sleep apnea at-home sleep apnea testing. By investigating the variability, we want to quantify the improvement in diagnostic accuracy by additional measurements. The hypothesis is that additional recordings offer a significant improvement in diagnostic accuracy by reducing the variability. The reduction in variability will diminish with each additional recording.
The Prodigy system, developed by Cerebra Medical Ltd, allows for the generation of the same information in the home that is currently only obtained in in-laboratory studies. The objective of the current study is to demonstrate that the signals obtained by this comprehensive, portable system are comparable to those obtained in in-laboratory studies.